Oscillating tool

ABSTRACT

A clamp arrangement for releasably securing an accessory to an oscillating power tool can include a tool body including a motor that drives an output member. A clamp assembly can include a first clamp member that moves relative to the accessory between a closed position wherein the clamp assembly retains the accessory and an open position wherein the first clamp member of the clamp assembly is offset from the accessory permitting removal of the accessory from the clamp assembly. A lever can have a user engagement portion and a pivot portion including a pivot axle. The lever can be pivotally coupled to the tool body about the pivot axle between a first position, wherein the clamp assembly is in the closed position and a second position wherein movement of the user engagement portion of the lever causes the clamp assembly to be moved to the open position.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit and priority of U.S. Provisional Application No. 61/329,480, filed Apr. 29, 2010. The entire disclosure of the above application is incorporated herein by reference.

FIELD

The present disclosure relates to power hand tools and more specifically to a clamp arrangement for releasably securing an accessory to an oscillating power hand tool.

BACKGROUND

This section provides background information related to the present disclosure which is not necessarily prior art.

Power hand tools are provided in many examples for performing a wide range of tasks. For example, some power hand tools can include an output member that is driven by a motor and that couples with an accessory to perform a working operation onto a work piece. For example, some hand tools can provide various configurations for attaching cutting accessories, grinding accessories, sanding accessories and the like. Some power hand tools are configured as oscillating tools that are operable to transmit an oscillating motion onto the accessory.

During the course of performing a working operation, a user may want to exchange one accessory for another accessory. For example, a user may want to exchange one grinding accessory with another grinding accessory or one sanding platen with another sanding platen. Alternatively, a user may wish to replace a cutting accessory with another cutting accessory. It is also contemplated that a user may want to replace a given accessory dedicated to one task (such as sanding) with another accessory dedicated toward another task (such as cutting for example). In any event, many power hand tools require the use of a secondary tool to swap out accessories. For example, many power hand tools require the use of a hand screw driver that can be used to retract a fastener that may lock the accessory to the output member of the power hand tool. In other examples, a wrench or other hand tool may be required to remove or unlock a given accessory from the power hand tool and subsequently lock another accessory back to the power hand tool.

SUMMARY

This section provides a general summary of the disclosure, and is not a comprehensive disclosure of its full scope or all of its features.

A clamp arrangement for releasably securing an accessory to a power tool can include a tool body including a motor that drives an output member. A clamp assembly can include a first clamp member that moves relative to the accessory between a closed position wherein the clamp assembly retains the accessory and an open position wherein the first clamp member of the clamp assembly is offset from the accessory permitting removal of the accessory from the clamp assembly. A lever can have a user engagement portion and a pivot portion including a pivot axle. The lever can be pivotally coupled to the tool body about the pivot axle between a first position, wherein the clamp assembly is in the closed position and a second position wherein movement of the user engagement portion of the lever causes the clamp assembly to be moved to the open position. The user engagement portion of the lever can be positioned intermediate the tool housing and the accessory.

According to additional features, the accessory can oscillate about a longitudinal axis that is located intermediate the pivot axle and the user engagement portion. A first biasing member can bias the clamp assembly toward the closed position. The clamp assembly can further comprise a second clamp member having a first portion that opposes the first clamp member and cooperates with the first clamp member to clamp the accessory between the first and second clamp members.

According to other features, the first clamp member can include a first clamp body having one of a first plurality of protrusions extending from a first clamping surface and a first plurality of recesses formed into the first clamping surface. The second clamp member can include a second clamp body that has a second clamping surface that opposes the first clamping surface. The second clamping surface can include the other of the first plurality of protrusions and first plurality of recesses, wherein the first plurality of protrusions are configured to cooperatively locate into the corresponding first plurality of recesses in the closed position. The first clamp body can include an annular flange that nests in a pocket formed on the lever.

According to still other features, the second clamp body can further include an auxiliary attachment surface that is distinct from the second clamping surface. The auxiliary attachment surface can be configured to selectively and alternatively connect with a secondary accessory. The auxiliary attachment surface can further include one of a second plurality of protrusions and second plurality of recesses thereon that are configured to cooperatively mate with the secondary accessory. The second clamping surface and the auxiliary attachment surface can face away from each other. In one example, a second biasing member can be disposed between the user engagement portion of the lever and the tool body. The second biasing member can bias the user engagement portion of the lever away from the tool body.

Further areas of applicability will become apparent from the description provided herein. The description and specific examples in this summary are intended for purposes of illustration only and are not intended to limit the scope of the present disclosure.

DRAWINGS

The drawings described herein are for illustrative purposes only of selected embodiments and not all possible implementations, and are not intended to limit the scope of the present disclosure.

FIG. 1 is a perspective view of a clamp arrangement constructed in accordance to one example of the present teachings and shown operatively associated with an exemplary power hand tool for releasably securing a first or a second accessory;

FIG. 2 is a perspective view of a clamp assembly of the clamp arrangement shown in FIG. 1 and shown with the clamp assembly in the closed position retaining the first accessory;

FIG. 3 is an exploded perspective view of the clamp assembly of FIG. 2;

FIG. 4 is a sectional view of the clamp assembly of FIG. 2 and shown with the clamp assembly in the closed position and a lever of the clamp assembly in a first position;

FIG. 5 is a cross-sectional view of the clamp assembly of FIG. 4 and shown with the clamp assembly in the open position resulting from the lever being rotated about a pivot axle into a second position wherein the first accessory is subsequently lifted out of engagement with the first clamp member;

FIG. 6 is a cross-sectional view of the clamp assembly of FIG. 5 shown with the clamp assembly in the open position and the lever in the second position and illustrating the first accessory being removed from the clamp assembly;

FIGS. 7-9 are perspective views of the clamp assembly that generally correspond to the sequence illustrated in FIGS. 4-6 for removing the first accessory from the clamp assembly;

FIGS. 10-12 are perspective views of the clamp assembly that illustrate an exemplary sequence of orienting the first accessory in a different rotational position relative to the clamp assembly;

FIGS. 13-15 are cross-sectional views of the clamp assembly taken through a spindle of the power hand tool and shown with the first accessory rotated at different positions around an axis of the spindle;

FIG. 16 is a perspective view of the clamp arrangement of the present teachings and shown with the clamp assembly secured to the second accessory;

FIG. 17 is an exploded perspective view of the clamp assembly and second accessory illustrated in FIG. 16;

FIG. 18 is a sectional view of the clamp assembly of FIG. 16 and shown with the clamp assembly in the open position resulting from movement of the lever around the pivot axle to the second position for receipt of a mounting collar of the second accessory;

FIG. 19 is a cross-sectional view of the clamp assembly of FIG. 18 and shown with the mounting collar of the second accessory positioned generally between first and second clamp members of the clamp assembly while the lever is maintained in the second position;

FIG. 20 is a cross-sectional view of the clamp assembly of FIG. 19 and illustrating the clamp assembly in the closed position as a result of the lever being released and returned to the first position causing the first and second clamp members to clamp the mounting collar;

FIG. 21 is a perspective view of an exemplary third accessory;

FIG. 22 is a partial cross-section of the clamp assembly and shown with the third accessory secured to an auxiliary mounting surface of the second clamp member;

FIGS. 23-25 illustrate an exemplary assembly sequence of a fourth accessory having a throat that defines a relatively narrower opening as compared to the first accessory wherein the throat is slidably directed through channels provided on the spindle;

FIG. 26 is an exploded partial plan view of the fourth accessory and shown adjacent to the second clamp member and illustrated with the spindle in cross-section taken through the channels;

FIG. 27 is a partial plan view of a fifth accessory having circular mounting passages according to additional features;

FIG. 28 is a partial plan view of the fifth accessory shown in FIG. 27 and illustrated interfacing with the second clamp member;

FIG. 29 is a side view of a clamp arrangement constructed in accordance to another example of the present teachings and shown operatively associated with an exemplary hand tool;

FIG. 30 is a sectional view of the clamp assembly of FIG. 29 and shown with the clamp assembly in a closed position and a lever of the clamp assembly in a first position;

FIG. 31 is a perspective view of the second clamp member of the clamp assembly of FIG. 30;

FIG. 32 is a plan view of an accessory constructed in accordance to one example of the present teachings;

FIG. 33 is a side view of the accessory of FIG. 32 shown placed on the second clamp member and shown with the first clamp member removed for illustrative purposes; and

FIG. 34 is a side view of the clamp assembly shown during removal of the accessory where the lever is moved from the first position (phantom) to a second position (solid line) and the first clamp member is raised away from engagement with the accessory.

Corresponding reference numerals indicate corresponding parts throughout the several views of the drawings.

DETAILED DESCRIPTION

Example embodiments will now be described more fully with reference to the accompanying drawings.

With initial reference to FIG. 1, a clamp arrangement constructed in accordance to one example of the present disclosure is shown and generally identified at reference numeral 10. The clamp arrangement 10 is shown operatively associated with a power tool 12 for selectively and alternatively retaining various accessories, such as a first accessory 14 a or a second accessory 14 b. The exemplary power tool can generally include a tool body 18 including a housing 20 that generally contains a motor 22 that drives an output member 24. The output member 24 can be coupled to a spindle 26. The exemplary power tool 12 is configured for providing an oscillating motion onto the spindle 26. It will be appreciated that while the clamp arrangement 10 is disclosed herein as part of an oscillating power hand tool, the clamp arrangement 10 may be also configured for use with other power tools that releasably secure an accessory.

The clamp arrangement 10 can further include a clamp assembly 30 that operatively cooperates with an actuator such as a lever 32. The clamp assembly 30 can generally include a first clamp member 36 and a second clamp member 38. The lever 32 can include a lever arm 40 that includes a user engagement portion 42 and a block 44. The lever 32 can further include a pivot portion 46 having a pivot axle 48.

With continued reference to FIG. 1, the second accessory 14 b will be briefly described. The second accessory 14 b can generally include a sanding platen 50 having a platen body 52 and a mounting collar 54. In the example shown, the mounting collar 54 can be coupled to the body 52 by way of a series of fasteners 56. The body 52 can be configured to support an abrasive sheet, such as sand paper and the like as is known in the art. The mounting collar 54 can generally include an upper plate portion 60 having a plurality of mounting features 62. In the example shown, the mounting features 62 are generally in the form of passages formed through the mounting collar 54. The mounting collar 54 can generally include an open-ended aperture or throat 66 configured to accept the spindle 26 in an assembled position as will be described herein.

With additional reference now to FIGS. 2 and 3, the clamp assembly 30 will be described in greater detail. The second clamp member 38 can include a second clamp body 70 generally in the form of a ring having a central opening 72. The second clamp body 70 can generally comprise a second clamping surface 74 having a plurality of mounting features 76 formed thereon. In the example shown, the plurality of mounting features 76 are in the form of male protrusions 78. In the particular example shown, eight protrusions each having a tapered shape or form are provided. However, other configurations are contemplated. The second clamp body 70 can additionally include an auxiliary attachment surface 80 having a plurality of auxiliary mounting features 82 (FIG. 2). Again, the plurality of auxiliary mounting features 82 are shown in the form of male protrusions and may include a similar eight protrusion configuration as provided on the second clamping surface 74. The auxiliary mounting features 82 can each have a diameter of 2.4 mm. Other configurations are contemplated.

With reference now to FIGS. 3 and 4, the first clamp member 36 can generally include a first clamp member body 84 having an annular flange 86. The first clamp member body 84 can include a first clamping surface 87 having a plurality of mounting features 88 (FIG. 4). In the example shown, the plurality of mounting features 88 are in the form of recesses that cooperatively receive the corresponding plurality of mounting features 76 of the second clamp member 38. The mounting features 88 can have any configuration, such as blind bores, or circular grooves being suitable to accept the male protrusions of the mounting features 76. The annular flange 86 can generally extend radially on an end of an outer hub 90 of the first clamp member body 84. The annular flange 86 can have a lever opposing surface 91. The first clamp member body 84 can further include an inner hub 92 that defines a first clamp member opening 94. The first clamp member opening 94 can be configured to receive the spindle 26. An annular channel 96 can be formed between the outer hub 90 and the inner hub 92. The annular channel 96 can have a terminal surface 98.

The lever 32 can generally include a lever body 100 having the user engagement portion 42 formed generally on a first end and the pivot portion 46 formed on an opposite end. According to one example, the pivot portion 46 can generally include a pair of lobes 102 that each define an axle passage 104. The lever body 100 can further include a pocket 108 having a flange opposing surface 110 for generally receiving two steel balls and the annular flange 86 of the first clamp member 36. The block 44 can generally include a pair of transverse posts 116 and a blind bore 118. The axle passages 104 provided in the lobes 102 can be configured to receive the pivot axle 48.

The clamp arrangement 10 can additionally include a first biasing member 120 and a second biasing member 122. The first biasing member 120 can be at least partially received by the annular channel 96 provided on the first clamp member body 84. The second biasing member 122 can be at least partially received into the blind bore 118 of the block 44. The first biasing member 120 can be generally supported on an upper end by a washer 126 that is correspondingly supported by a bearing 130 journalled around the spindle 26. The spindle 26 can additionally include a pair of flats 132 and channels 134 formed on a distal end. The flats 132 can generally correspond to the profile of the opening 72 formed in the second clamp member 38. The flats 132 can cooperate with the profile of the opening 72 to key the second clamp member 38 to the spindle 26 and inhibit rotation of the second clamp member 38 around a spindle axis 140. In the example provided, the output member 24 can be generally in the form of a drive fork that can impart rotational motion onto the spindle 26 around the spindle axis 140. Other configurations are contemplated. A support bearing 142 can be arranged on one end of the spindle 26 for cooperatively mounting within the housing 20.

Returning to FIG. 3, the first accessory 14 a can be generally in the form of a cutting member having a working portion 146 and an attachment portion 148. The attachment portion 148 can include a plurality of mounting features 150 in the form of passages formed through the first accessory 14 a. The attachment portion 148 can further include an open-ended aperture or throat 152 for selectively receiving a portion of the spindle 26 in an assembled position as will be described herein.

With specific reference now to FIGS. 4-6, an exemplary sequence of removing the first accessory 14 a from the clamp assembly 30 will be described according to one example of the present teachings. With initial reference to FIG. 4, the clamp assembly 30 is shown in a closed position wherein the biasing member 120 is supported on a first end by the washer 126 and provides a downward biasing force onto the first clamp member 36 at the annular channel 96. It is important to recognize that in the particular example shown, the second clamp member 38 is fixed to the spindle 26. As shown, the male protrusions of the mounting features 76 selectively locate into the recesses of the mounting features 88 formed on the first clamp member 36. The first accessory 14 a therefore is clamped between the second clamping surface 74 and the first clamping surface 87 while the male protrusions of the mounting features 76 locate through passages of the mounting features 150 formed on the first accessory 14 a. Those skilled in the art will recognize that while some of the mounting features are described and shown as male protrusions and some of the mounting features are described and shown as recesses, the locations may be swapped. Moreover, other interlocking geometries may be used. As viewed in FIG. 4, the lever 32 is shown and generally described herein as the first position.

With specific reference now to FIG. 5, the lever 32 is shown rotated around a pivot axle axis 160 of the pivot axle 48 to a second position. In the second position, the clamp assembly 30 is generally in the open position where the first clamp member 36 is displaced or offset relative to the second clamp member 38. In order to move the lever 32 from the first position (FIG. 4) to the second position (FIG. 5), a user can urge the user engagement portion 42 (such as by pulling the user engagement portion 42 with an index finger) in a direction generally upwardly as viewed in FIG. 5 and toward the housing 20. In order to rotate the lever 32 around the pivot axle 48, a user must overcome the biasing forces of the respective first and second biasing members 120 and 122. During rotation of the lever 32 around the pivot axle 48, the flange opposing surface 110 in the pocket 108 of the lever body 100 (FIG. 3) generally transmits an upward force (in a direction against the biasing force of the first biasing member 120) onto the lever opposing surface 91. In this regard, the lever 32 can generally lift the first clamp member 36 at the annular flange 86 to move the first clamping surface 87 away from the second clamping surface 74. It will be appreciated that other mechanical configurations other than a lever that pivots about a pivot axle may be used. For example, a camming configuration or slidable actuation member may be additionally or alternatively employed.

With the clamp assembly 30 in the open position, the first and second clamp members 36 and 38, respectively, provide enough clearance, such that a user can remove the first accessory 14 a away from the clamp assembly 30. In one example, it may be necessary to initially lift the first accessory 14 a away from the male protrusions of the mounting features 76 before pulling the first accessory 14 a away from the clamp assembly 30 (FIG. 6).

The clamp arrangement 10 of the present disclosure can provide a significant mechanical advantage that can provide a particularly robust clamping action onto an accessory in a tight package requiring relatively small space. In this regard, by mounting the pivot axle 48 on an opposite end of the user engagement portion 42 a user be offered a significant moment arm that can act against the respective biasing forces of the first and second biasing members 120 and 122 while still offering a significant clamping force. According to other advantages, the location of the user engagement portion 42 provides an ergonomically pleasing configuration adjacent to the housing 20 where a user's palm would be generally positioned. In this regard, an index finger can easily negotiate onto the user engagement portion 42 without having to significantly reposition a user's palm. Moreover, the user engagement portion 42 can be generally located between the housing 20 and the first accessory 14 a, such that a user can easily pull up on the user engagement portion 42 in a direction toward the housing with one hand while removing/installing any given accessory with the other hand.

With specific reference now to FIGS. 7-9, perspective views of the clamp assembly 30 are shown wherein FIG. 7 generally corresponds to the sectional view of FIG. 4 of the clamp assembly 30 in the closed position and the lever 32 in the first position. FIG. 8 generally corresponds to the sectional view of FIG. 5 where the clamp assembly 30 is in the open position and the lever 32 is in the second position. FIG. 9 generally corresponds to the sectional view of FIG. 6 where the clamp assembly 30 is in the open position and the lever 32 is in the second position while the first accessory 14 a is removed from the clamp assembly 30.

With reference now to FIGS. 10-12, the clamp assembly 30 can be used to selectively clamp a given accessory, such as the first accessory 14 a through a variety of rotational orientations around the spindle axis 140. As identified above, the second clamp member 38 includes eight mounting features 76 however other configurations may be incorporated. The first accessory 14 a includes nine mounting features or passages 150. The first accessory 14 a can be arranged in a plurality of different rotational orientations, such that the male protrusions 78 can be aligned for passing through the passages 150 by rotating the first accessory 14 a into the orientation desired. As can be appreciated, it may be advantageous to orient the first accessory 14 a differently for a particular task. Once the passages 150 are aligned for receipt of the male protrusions 78 on the second clamp member 38 the attachment portion 148 of first accessory is dropped onto the second clamping surface 74.

In the exemplary sequence shown in FIGS. 10-12, a user can initially pull up the lever 32 at the user engagement portion 42 causing the annular flange 86 of the first clamp member 36 to be lifted as previously described. With the first clamp member 36 displaced from the second clamp member 38, the first accessory 14 a can be oriented into the desired radial position and aligned with the corresponding male protrusions 78. The user can then release the user engagement portion 42 allowing the first biasing member 120 (and the second biasing member 122) to urge the first clamp member 36 in a direction toward the second clamp member 38 until the respective first and second clamping surfaces 87 and 74, respectively, engage and clamp the attachment portion 148 of the first accessory 14 a (FIG. 12).

Turning now to FIGS. 13-15, various examples are shown with the first accessory 14 a mounted around the second clamp member 38. In the examples shown, the male protrusions of the mounting features 76 can be arranged to allow the first accessory 14 a to be indexed at about thirty degree increments around the second clamping surface 74. When describing the male protrusions of the mounting features 76 in the context of a clock, mounting features are absent at the two, four, eight and ten o'clock positions. Other examples are contemplated.

With reference now to FIGS. 16-20, the clamp assembly 30 will be described clamping the second accessory 14 b according to one example of the present teachings. As described above, the clamp assembly 30 is normally biased into the closed position. As illustrated in FIG. 18, the lever 32 is shown rotated around the pivot axle axis 160 of the pivot axle 48 to the second position. In the second position, the clamp assembly 30 is generally in the open position where the first clamp member 36 is displaced relative to the second clamp member 38. With the clamp assembly 30 in the open position, the first and second clamp members 36 and 38, respectively provide enough clearance to accept the mounting collar 54 of the second accessory 14 b.

While a user maintains an upward force on the user engagement portion 42 of the lever 32, the second accessory 14 b is directed toward the clamp assembly 30, such that the spindle 26 is generally located through the throat 66 (FIG. 19). Once the desired mounting features 62 of the mounting collar 54 are aligned with the desired mounting features 76 of the second clamp member 38, the user can release the user engagement portion 42 of the lever 32 allowing the respective first and second biasing members 120 and 122 to return the lever 32 to the first position (FIG. 20). In the first position, the clamp assembly 30 is in the closed position, such that the first clamping surface 87 of the first clamp member 36 as well as the second clamping surface 74 of the second clamp member 38 cooperatively clamp the mounting collar 54 of the second accessory 14 b.

Turning now to FIGS. 21 and 22, a third accessory 14 c and a method of attaching the third accessory 14 c to the auxiliary attachment surface 80 of the second clamp member 38 will be described. The third accessory 14 c can generally include a body 170 having a generally iron-shaped. A plurality of mounting features 176 can be formed around an upper surface 178 of the body 172 of the third accessory 14 c. In the example shown, the plurality of mounting features 176 can be in the form of recesses having a profile that generally mates with the plurality of mounting features 82 extending from the auxiliary attachment surface 80. A mounting aperture 180 can be formed through the body 172 of the third accessory 14 c for accepting a fastener 182 (FIG. 22). The fastener 182 can threadably mate with a threaded bore 186 defined at a distal end of the spindle 26. Those skilled in the art will readily appreciate that movement of the lever 32 will not affect the attachment of the third accessory 14 c as the third accessory 14 c only interfaces with the second clamp member 38 that is rigidly fixed to the spindle 26.

Turning now to FIGS. 23-26, a fourth accessory 14 d will be described cooperating with the spindle 26 and the second clamp member 38. The channels 134 formed in the spindle 26 can provide clearance for accepting other accessories, such as accessories that may define a throat 152 having a smaller entrance. In this regard, the reduced geometry throat of an accessory may be initially negotiated through the channel 134 prior to rotating the accessory into the desired orientation relative to the spindle 26 and subsequently clamping the accessory to the clamp assembly 30.

The fourth accessory 14 d can have an open-ended aperture or throat 190 formed on an attachment portion 192. The throat 190 can generally span a distance 194. As compared to the throat 152 on the first accessory 14 a, the throat 190 provides a reduced distance 194. The channels 134 provided on the spindle 26 are offset a distance 196 that is generally less than the distance 194, such that the throat 190 can be advanced through the channels 134 until clearing the channels 134 at an opposite end of the spindle 26 (see FIG. 24). Once the throat 190 has cleared the channels 134, a user can rotate the fourth accessory 14 d to a desired orientation around the second clamping surface 74 of the second clamp member 38. Once the desired orientation has been attained, the attachment portion 192 of the fourth accessory 14 d can be dropped onto the second clamping surface 74 while the male protrusions of the mounting features 76 locate through respective passages 198 formed through the attachment portion 192 on the fourth accessory 14 d (FIG. 25). FIG. 26 illustrates a plan view that represents the relative distances 194 of the throat 190 and 196 of the channels 134.

With reference now to FIGS. 27 and 28, a fifth accessory 14 e is shown that has an attachment portion 200 having a plurality of mounting formations 202 formed therethrough. The mounting formations 202 can be generally in the form of circular apertures. The circular apertures can have a tapered shape. Other dimensions are contemplated that may still have a diameter (or opening in general) that is large enough to accept the diameter of the respective mounting features 76 on the second clamp member 38.

With reference now to FIGS. 29-34, a clamp arrangement constructed in accordance to another example of the present disclosure is shown and generally identified at reference numeral 210. The clamp arrangement 210 is shown operatively associated with a power tool 212 for selectively and alternatively retaining various accessories such as a sixth accessory 14 f. The exemplary power tool 212 can generally include a tool body 218 including a housing 220 that generally contains a motor 222 that drives an output member 224. The output member 224 can be coupled to a spindle 226. The exemplary power tool 212 is configured for providing an oscillating motion onto the spindle 226. As with the clamp arrangement 10 described above, the clamp arrangement 210, while described herein as part of an oscillating hand tool, can also be used with other power tools that releasably secure an accessory.

The clamp arrangement 210 can further include a clamp assembly 230 (FIG. 30) that operatively cooperates with a lever 232. The clamp assembly 230 can generally include a first clamp member 236 and a second clamp member 238. The lever 232 can include a lever arm 240 that includes a user engagement portion 242. The lever 232 can further include a pivot portion 246 having a pivot axle 248.

With specific reference now to FIGS. 30 and 31, the second clamp member 238 will be further described. The second clamp member 238 can include a second clamp body 250 generally in the form of a ring having a central opening 252. The second clamp body 250 can generally comprise a second clamping surface 254 having a plurality of mounting features 256 formed thereon. In one example, the second clamp body 250 and the plurality of mounting features 256 can be formed as a unitary, monolithic part, such as by precision cast steel.

As will become appreciated by the following discussion, the second clamp member 238 is configured such that the second clamping surface 254 does not actually engage the sixth accessory 14 f. In the example shown, the plurality of mounting features 256 are in the form of male conical protrusions 258. In the particular example shown, eight protrusions or male conical protrusions 258 are configured to each have a tapered body portion 260 that generally tapers from the second clamping surface 254 toward a tip 262. The tip 262 can generally comprise a spherical geometry. The male conical protrusions 258 each have a height 264 measured from the second clamping surface 254 to a terminal end 266 of the tip 262. The male conical protrusions 258 can further define an angle 270 measured from a longitudinal axis 272 to an outer surface 276 of the tapered body portion 260.

The male conical protrusions 258 can be configured to engage apertures of the sixth accessory 14 f at a position intermediate the terminal end 266 of the tip 262 and the second clamping surface 254. Explained differently, the sixth accessory 14 f can be clamped with the lever 232 in a first position and the clamp assembly 230 closed (FIG. 30), such that the sixth accessory 14 f is offset a distance 280 from the second clamping surface 254. According to one example, the height 264 can be substantially about 4 mm and the angle 270 can be substantially about between 20° and 30° and more specifically 25°. A diameter of the male conical protrusions 258 measured at the second clamping surface 254 can be substantially about 3 mm. The surface finish of the male conical protrusions 258 can be sufficiently hard so as not to deform from interaction with the sixth accessory 14 f. In one example, the male conical protrusions are at least 10 points (Rockwell hardness testing) harder than the sixth accessory 14 f. Other heights and angles are contemplated.

With specific reference now to FIG. 30, the first clamp member 236 can generally include a first clamp member body 284 having an annular flange 286. The first clamp member body 284 can include a clamping surface 287 that has a plurality of mounting features 288 that are in the form of recesses that cooperatively receive the corresponding plurality of mounting features 256 of the second clamp member 238. The mounting features 288 can have any configuration, such as blind bores having diameters suitable to accept at least portions of the male conical protrusions 258 of the mounting features 256. The annular flange 286 can generally extend radially from an outer hub 290 of the first clamp member body 284. The annular flange 286 can have a lever opposing surface 291. The first clamp member body 284 can further include an inner hub 292 that defines a first clamp member opening 294. The first clamp member opening 294 can be configured to receive the spindle 226. An annular channel 296 can be formed between the outer hub 290 and the inner hub 292. The annular channel 296 can have a terminal surface 298.

The lever 232 can generally include a lever body 300 having the user engagement portion 242 formed generally on a first end and the pivot portion 246 formed on an opposite end. According to one example, the pivot portion 246 can generally include a pair of lobes 302 that each define an axle passage similar to the axle passage 104 described above with respect to FIG. 3. The lever body 300 can further include a pocket 308 having a flange opposing surface 310. A retainer plate 312 can be formed on the lever body 100. The retainer plate 312 can be configured to rest on the annular flange 286 when the lever 232 is released. The pivot axle 248 can be configured to pass through the respective axle passages of the lobes 302 and a corresponding axle passage 316 formed through an arm 318 extending from the housing 220.

The clamp arrangement 210 can additionally include a biasing member 320 and a washer 326. The biasing member 320 can be at least partially received by the annular channel 296 provided on the first clamp member body 284. The biasing member 320 can be generally supported on an upper end by a washer 326 that is correspondingly supported by a flange on the spindle 226. A distal end of the spindle 226 can be configured to attain a press fit relationship (through the central opening 252) with the second clamp body 250.

With particular reference now to FIG. 32, the sixth accessory 14 f will be described. The sixth accessory 14 f can generally be in the form of a cutting member having a working portion 346 and an attachment portion 348. The attachment portion 348 can include a plurality of mounting features 350 in the form of passages formed through the sixth accessory 14 f. The attachment portion 348 can further include an open-ended aperture or throat 352 for selectively receiving a portion of the spindle 226 in an assembled position as will be described herein. According to one example of the present teachings, the plurality of mounting features 350 can be circular and have a diameter 358 of substantially about 2.8 mm. The throat 352 can define an angle 360 of about 60°. Other dimensions are contemplated. It will be appreciated however that the diameter 358 is selected to have a geometry such that it will engage the tapered body portion 260 of the male conical protrusions 258 at a location intermediate the terminal end 266 of the tip 262 and the second clamping surface 254. More particularly, the diameter 358 has a geometry that will ensure the attachment portion 348 does not bottom out or rest on top of the second clamping surface 254. In other words, the offset 280 (FIG. 30) must be greater than zero.

The mounting features 256 can be arranged to allow the sixth accessory 14 f to be indexed at about 30° increments around the second clamping surface 254. Like the mounting features 76 described above, the mounting features 256 are absent at the two, four, eight and ten o'clock positions. It is further appreciated that the clamp assembly 230 can be used to clamp other accessories, such as described herein. Other configurations are contemplated.

With specific reference now to FIGS. 30 and 34, an exemplary sequence of removing the sixth accessory 14 f from the clamp assembly 230 will be described according to one example of the present teachings. With initial reference to FIG. 30, the clamp assembly 230 is shown in a closed position wherein the biasing member 320 is supported on a first end by the washer 326 and provides a downward biasing force onto the first clamp member 236 at the annular channel 296. It is important to recognize that in the particular example shown, the second clamp member 238 is fixed relative to the spindle 226. As shown, the male conical protrusions 258 selectively locate into the recesses of the mounting features 288 formed on the first clamp member 236. The sixth accessory 14 f therefore is clamped between the clamping surface 287 and the outer surfaces 276 of the respective male conical protrusions 258. Again, the sixth accessory 14 f is clamped at a location offset from the second clamping surface 254 of the second clamp member 238. As viewed in FIG. 30, the lever 232 is shown and generally described herein as the first position. Because the sixth accessory 14 f is specifically engaged at the mounting features 350, the sixth accessory 14 f can be securely fixed against the clamping surface 287 with minimal or no relative movement between the sixth accessory 14 f and the clamp assembly 230.

Turning now specifically to reference FIG. 34, the lever 232 is shown rotated from the first position (phantom line) around the pivot axle axis 249 to a second position (solid line). In the second position, the clamp assembly 230 is generally in the open position where the first clamp member 236 is displaced or offset relative to the second clamp member 238. In order to move the lever 232 from the first position (phantom line, FIG. 34) to the second position (solid line, FIG. 34), a user can urge the user engagement portion 242 (such as by pulling the user engagement portion 242 with an index finger) in a direction generally upwardly as viewed in FIG. 34 and toward the housing 220. In order to rotate the lever 232 around the pivot axle 248, a user must overcome the biasing force of the biasing member 320 (FIG. 30). During rotation of the lever 232 around the pivot axle 248, the flange opposing surface 310 and the pocket 308 of the lever body 300 generally transmits an upward force (in a direction against the biasing force of the biasing member 320) onto the lever opposing surface 291. In this regard, the lever 232 can generally lift the first clamp member 236 at the annular flange 286 to move the clamping surface 287 away from the second clamp member 238.

With the clamp assembly 230 in the open position, the first and second clamp members 236 and 238, respectively, provide enough clearance, such that a user can remove the sixth accessory 14 f away from the clamp assembly 230. In one example, it may be necessary to initially lift the sixth accessory 14 f away from the male conical protrusions 258 before pulling the sixth accessory 14 f away from the clamp assembly 230.

The pivot axle 248 can be located a distance 370 measured perpendicularly from a point 372 on a longitudinal centerline of the spindle 226. In one example, the distance 370 can be long enough to give the user a mechanical advantage to comfortably overcome the bias of the biasing member 320 when moving the lever 232 to the second position (clamp assembly 230 open). A distance 374 measured between the point 372 and a plane defined by the clamping surface 287 can be less than the distance 370.

The foregoing description of the embodiments has been provided for purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure. Individual elements or features of a particular embodiment are generally not limited to that particular embodiment, but, where applicable, are interchangeable and can be used in a selected embodiment, even if not specifically shown or described. The same may also be varied in many ways. Such variations are not to be regarded as a departure from the disclosure, and all such modifications are intended to be included within the scope of the disclosure. 

1. A clamp arrangement for releasably securing an accessory having an open-ended aperture to an oscillating power tool, the clamp arrangement comprising: a tool body including a motor having an output member that drives the accessory; a clamp assembly including a first clamp member that moves relative to the accessory between a closed position wherein the clamp assembly retains the accessory and an open position wherein the first clamp member of the clamp assembly is offset from the accessory permitting removal of the accessory from the clamp assembly while the first clamp member remains coupled to the clamp assembly; and an actuator having a user engagement portion and being movably coupled relative to the tool body between a first position, wherein the clamp assembly is in the closed position and a second position wherein movement of the user engagement portion of the actuator causes the clamp assembly to be moved to the open position;
 2. The clamp arrangement of claim 1 wherein the user engagement portion of the actuator is positioned intermediate the tool housing and the accessory.
 3. The clamp arrangement of claim 1 wherein the actuator comprises a lever having a pivot potion including a pivot axle, the lever being pivotally coupled relative to the tool body about a pivot axle between the first and second positions.
 4. The clamp arrangement of claim 3 wherein the clamp assembly is arranged on the tool body in a position such that the accessory oscillates about a longitudinal axis that is located intermediate the pivot axle and the user engagement portion.
 5. The clamp arrangement of claim 1, further comprising a first biasing member that biases the clamp assembly toward the closed position.
 6. The clamp arrangement of claim 1 wherein the clamp assembly further comprises a second clamp member having a first portion that opposes the first clamp member and cooperates with the first clamp member to clamp the accessory between the first and second clamp members.
 7. The clamp arrangement of claim 6 wherein the first clamp member comprises a first clamp body having one of a first plurality of protrusions extending from a first clamping surface and a first plurality of recesses formed into the first clamping surface.
 8. The clamp arrangement of claim 7 wherein the second clamp member comprises a second clamp body having a second clamping surface that opposes the first clamping surface and includes the other of the first plurality of protrusions and first plurality of recesses, wherein the first plurality of protrusions are configured to cooperatively locate into the corresponding first plurality of recesses in the closed position.
 9. The clamp arrangement of claim 8 further comprising an accessory having a plurality of mounting formations therethrough, the first plurality of protrusions each having a conical outer surface that locates partially through and engages the plurality of mounting formations of the accessory in the closed position, wherein the accessory is positioned offset from the second clamping surface of the second clamp body.
 10. The clamp arrangement of claim 8 wherein the second clamp body further comprises an auxiliary attachment surface, distinct from the second clamping surface and configured to selectively and alternatively connect with a secondary accessory.
 11. The clamp arrangement of claim 10 wherein the auxiliary attachment surface further comprises one of a second plurality of protrusions and second plurality of recesses thereon that are configured to cooperatively mate with the secondary accessory.
 12. The clamp arrangement of claim 11 wherein the second clamping surface and the auxiliary attachment surface face away from each other.
 13. The clamp arrangement of claim 3, further comprising a second biasing member disposed generally between the user engagement portion of the lever and the tool body and that biases the user engagement portion of the lever away from the tool body.
 14. A clamp arrangement for releasably securing an accessory having an open-ended aperture to an oscillating power tool, the clamp arrangement comprising: a tool body including a motor having an output member that drives the accessory; a clamp assembly including a first clamp member that moves relative to the accessory between a closed position wherein the clamp assembly retains the accessory and an open position wherein the first clamp member of the clamp assembly is offset from the accessory permitting removal of the accessory from the clamp assembly; and a lever having a user engagement portion and a pivot portion including a pivot axle, the lever being pivotally coupled relative to the tool body about the pivot axle between a first position, wherein the clamp assembly is in the closed position and a second position wherein movement of the user engagement portion of the lever causes the clamp assembly to be moved to the open position; wherein the clamp assembly is arranged on the tool body in a position such that the accessory oscillates about a longitudinal axis that is located intermediate the pivot axle and the user engagement portion.
 15. The clamp arrangement of claim 14 wherein the user engagement portion of the lever is positioned intermediate the tool housing and the accessory.
 16. The clamp arrangement of claim 14 wherein the clamp assembly further comprises a second clamp member having a first portion that opposes the first clamp member and cooperates with the first clamp member to clamp the accessory between the first and second clamp members.
 17. The clamp arrangement of claim 16 wherein the first clamp member comprises a first clamp body having one of a first plurality of protrusions extending from a first clamping surface and a first plurality of recesses formed into the first clamping surface.
 18. The clamp arrangement of claim 17 wherein the second clamp member comprises a second clamp body having a second clamping surface that opposes the first clamping surface and includes the other of the first plurality of protrusions and first plurality of recesses, wherein the first plurality of protrusions are configured to cooperatively locate into the corresponding first plurality of recesses in the closed position.
 19. The clamp arrangement of claim 18 wherein the second clamp body further comprises an auxiliary attachment surface, distinct from the second clamping surface and configured to selectively and alternatively connect with a secondary accessory.
 20. The clamp arrangement of claim 19 wherein the auxiliary attachment surface further comprises one of a second plurality of protrusions and second plurality of recesses thereon that are configured to cooperatively mate with the secondary accessory.
 21. The clamp arrangement of claim 20 wherein the second clamping surface and the auxiliary attachment surface face away from each other.
 22. A clamp arrangement for releasably securing an accessory having an open-ended aperture to an oscillating power tool, the clamp arrangement comprising: a tool body including a motor having an output member that drives the accessory; a clamp assembly including a first clamp member and a second clamp member, wherein the first clamp member moves relative to the second clamp member between a closed position wherein the clamp assembly retains the accessory and an open position wherein the first clamp member of the clamp assembly is offset from the second clamp member permitting removal of the accessory from the clamp assembly; a lever having a user engagement portion and a pivot portion including a pivot axle, the lever being pivotally coupled relative to the tool body about the pivot axle between a first position, wherein the clamp assembly is in the closed position and a second position wherein movement of the user engagement portion of the lever causes the clamp assembly to be moved to the open position; and an accessory having a plurality of mounting formations therethrough; wherein the plurality of protrusions each have a conical outer surface that locates partially through and engages the plurality of mounting formations of the accessory in the closed position, wherein the accessory is positioned offset from the second clamping surface. 